KR101008516B1 - Device for preventing reverse flow of corrosive gas in centrifugal dehydrator - Google Patents

Abstract

PURPOSE: A device for preventing reverse flow of corrosive gas in a centrifugal dehydrator is provided to prolong the lifetime of the centrifugal dehydrator by preventing corrosion of internal parts such as a bearing, a screw, and a screw axis. CONSTITUTION: A reverse flow of corrosive gas preventing device of a centrifugal dehydrator comprises: a supernatant inflow chamber(11); a supernatant evacuated chamber(12); a closure(10) in which the partition wall(13) having a discharge hole(13a) communicating the supernatant inflow chamber and supernatant evacuated chamber; an evacuation pipeline(20) being combined in the discharge hole of the partition wall, and discharges the supernatant flowing in into the supernatant inflow chamber to the supernatant evacuated chamber; and a corrosive gas reverse flow preventing plate(30). The corrosive gas reverse flow preventing plate is made of elastic material, connected to one end of the evacuation pipeline, and is fixed on the partition wall.

Description

DEVICE FOR PREVENTING REVERSE FLOW OF CORROSIVE GAS IN CENTRIFUGAL DEHYDRATOR}

The present invention relates to a corrosive gas backflow prevention device of a centrifugal dehydrator, and more particularly, to a corrosive gas generated by decay of organic matter contained in a desorption liquid from a collecting tank or a desorption tank in which a desorption liquid separated from sludge is transferred during operation of the centrifugal dehydrator. The present invention relates to a corrosion gas backflow prevention device of a centrifugal dehydrator which prevents corrosion of components in the centrifugal dehydrator by preventing backflow to the centrifugal dehydrator when the centrifugal dehydrator stops.

In general, excess sludge generated in sewage treatment plant, factory wastewater treatment plant, etc. is removed from water through the concentration and dehydration process to minimize the amount of sludge. It is treated by incineration or recycling.

At this time, the sludge that has been concentrated is injected into a centrifugal dehydrator to be concentrated and dehydrated by physical compressive force generated by the rotational driving of the screw conveyor, and is separated into a desorption solution and a dewatering cake. Conveyed to the reservoir.

The separated desorption liquid contains organic substances, and the decay of the organic substances in the collection tank or the desorption liquid storage tank generates corrosive gases such as hydrogen sulfide (H ₂ S) and sulfurous acid gas (SO ₂ ). This corrosive gas flows back into the centrifugal dehydrator when the centrifugal dehydrator stops, which corrodes the shaft and screw of the bearing and screw conveyor that support the screw conveyor to rotate, thereby shortening the life of the centrifugal dehydrator, as well as the cause of failures such as noise and improper rotation, and the screw. Compression force due to the rotation of the conveyor is lowered, the dehydration efficiency is significantly reduced and the separation of the desorption liquid is not a smooth factor.

Therefore, there is an urgent need for measures to prevent the corrosive gas generated from the decay of organic matter in the water collection tank or the desorption liquid storage tank to flow back into the centrifugal dehydrator.

The present invention has been made to solve the above problems, an object of the present invention, corrosiveness caused by the decay of organic matter contained in the desorption fluid from the collection tank or the desorption fluid storage tank is transported from the desorption liquid separated from the sludge during centrifugal dehydrator operation To prevent the backflow of the centrifugal dehydrator when the centrifugal dehydrator stops to prevent corrosion of the components in the centrifugal dehydrator to extend the life of the centrifugal dehydrator and to facilitate the separation of the desorption liquid to provide a corrosion gas backflow prevention device of the centrifugal dehydrator .

Corrosion gas backflow prevention device of the centrifugal dehydrator of the present invention is the desorption liquid and the desorption liquid discharged to the screen (2) provided by the dehydration of the sludge by the rotation of the screw feeder (1) having a spiral screw discharged to the outside of the screw feeder (1) The desorbing liquid discharged from the centrifugal dehydrator (4) for separating solid phase into the discharged dewatered cake (Cake) is installed on the desorption liquid discharge line (3) to be transferred to a collection tank or desorption liquid storage tank, and discharged to the desorption liquid discharge line (3). A desorption solution inlet chamber 11 for receiving the desorbed liquid, and a desorption fluid flowing in from the desorption fluid inflow chamber 11 and the desorption fluid discharge chamber 12 for discharging the desorption fluid introduced into the collection tank or the desorption fluid storage tank, and the inside of the desorption fluid inflow A partition wall 13 having a discharge hole 13a is formed so as to be partitioned into the chamber 11 and the desorption liquid discharge chamber 12 and communicate the desorption liquid inflow chamber 11 and the desorption liquid discharge chamber 12. Body 10; A discharge pipe line 20 coupled to the discharge hole 13a of the partition 13 to discharge the desorption liquid introduced into the desorption liquid inlet chamber 11 to the desorption liquid discharge chamber 12; It is made of an elastic material, is provided in the desorption liquid discharge chamber 12, one end is fixed to the partition 13, the outer edge portion is in contact with the end of the discharge pipe 20, the desorption liquid inflow chamber 11 It is retracted by the weight of the desorbent flowed into the opening to the discharge pipe 20 to discharge the desorption liquid into the desorption liquid discharge chamber 12, and after the desorption liquid discharged in the desorption liquid inlet chamber 11 by the elastic restoring force A corrosive gas backflow prevention plate 30 which closes 20 to block back the corrosive gas generated by the decay of organic matter contained in the desorption liquid from the water collecting tank or the desorption liquid storage tank to the desorption liquid inlet chamber 11; And a control unit.

In addition, the discharge line 20 is formed with an inclined surface 21 inclined upward from the lower side of the discharge side end portion located in the desorption liquid discharge chamber 12 in the direction of the desorption liquid inflow chamber 11, the corrosion gas backflow prevention plate The outer edge portion of the 30 is characterized in that the contact with the inclined surface (21).

In addition, it is coupled to the outside of the corrosive gas backflow prevention plate 30 to prevent deformation of the corrosive gas backflow prevention plate 30, the discharge pipe path 20 of the corrosive gas backflow prevention plate 30 by its own weight Auxiliary plate 40 to maintain a closed state; characterized in that it is further provided.

In addition, it is located inside the corrosion gas backflow prevention plate 30 and further provided with an annular plate 50 for bolting for bolting the auxiliary plate 40 to the corrosion gas backflow prevention plate 30 It features.

In addition, the upper part of the desorbing liquid inlet chamber 11 is characterized in that the bubble removing nozzle 14 is further provided to remove the bubbles formed when the desorbing liquid is introduced by spraying water to the desorbing liquid introduced.

In addition, the corrosive gas backflow prevention plate 30 is characterized in that the synthetic rubber material.

Corrosion gas backflow prevention device of the centrifugal dehydrator of the present invention by the configuration as described above centrifugal corrosive gas generated by the decay of the organic matter contained in the desorption fluid from the collection tank or the desorption liquid storage tank to which the desorption liquid separated from the sludge during the operation of the centrifugal dehydrator centrifugation By preventing backflow to the centrifugal dehydrator when the dehydrator stops, it prevents corrosion of parts in the centrifugal dehydrator, especially the bearings and the screw conveyor's shafts and screws that support the rotation of the screw conveyor, thereby extending the life of the centrifugal dehydrator and reducing the compressive force. There is an effect that the separation of the desorption liquid is smooth and effective solid-liquid separation is possible.

1 is a view showing a stationary state of a centrifugal dehydrator equipped with a corrosive gas backflow prevention device according to the present invention.
Figure 2 is a cross-sectional view showing a corrosion gas backflow prevention device of the centrifugal dehydrator in FIG.
Figure 3 is a view showing the operating state of the centrifugal dehydrator equipped with a corrosion gas backflow prevention device according to the present invention.
4 is a cross-sectional view showing a corrosion gas backflow prevention device of the centrifugal dehydrator in FIG.
Figure 5 is a cross-sectional perspective view showing a corrosion gas backflow prevention device of the centrifugal dehydrator according to the present invention.
Figure 6 is an exploded perspective view showing a corrosion gas backflow prevention device of the centrifugal dehydrator according to the present invention.
7 is a view showing a bubble removing nozzle installed in the desorption fluid inlet chamber according to the present invention.

Hereinafter, the apparatus for preventing corrosion gas backflow of the centrifugal dehydrator of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a stop state of the centrifugal dehydrator installed with a corrosion gas backflow prevention apparatus according to the present invention, Figure 2 is a cross-sectional view showing a corrosion gas backflow prevention device of the centrifugal dehydrator in Figure 1, Figure 3 according to the present invention Figure 4 is a view showing the operating state of the centrifugal dehydrator equipped with a corrosive gas backflow prevention device, Figure 4 is a cross-sectional view showing a corrosion gas backflow prevention device of the centrifugal dehydrator in Figure 3, Figure 5 is a corrosion gas backflow prevention of the centrifugal dehydrator according to the present invention Fig. 6 is an exploded perspective view showing a corrosion gas backflow prevention device of a centrifugal dehydrator according to the present invention, and Fig. 7 is a view showing a bubble removing nozzle installed in the desorption fluid inlet chamber according to the present invention.

Corrosion gas backflow prevention device of the centrifugal dehydrator according to the present invention, the desorption liquid discharge line for transporting the desorption liquid discharged from the centrifugal dehydrator for solid phase separation into the dewatering cake and the desorption liquid discharged to the dewatering tank or desorption tank (3) It is installed on the, and serves to block the corrosive gas generated by the decay of the organic matter contained in the desorption liquid transferred from the collection tank or the desorption liquid storage tank backflow to the centrifugal dehydrator (4).

The centrifugal dehydrator 4 compresses and dehydrates the sludge by the rotation of the screw feeder 1 equipped with the spiral screw, and the dewatering cake from which the desorption liquid and the desorption liquid are discharged are discharged to the screen 2 provided outside the screw feeder 1. Cake is known as solid phase separation.

The centrifugal dehydrator (4) is provided with a desorption liquid discharge line (3) for transferring the solid phase separated desorption liquid to the collection tank or desorption liquid storage tank.

Corrosion gas backflow prevention device of the centrifugal dehydrator according to the present invention is installed on the desorption liquid discharge line (3), by preventing the corrosive gas flow back to the centrifugal dehydrator (4) to prevent corrosion of the components in the centrifugal dehydrator by centrifugal dehydrator Corrosion gas backflow prevention device 100 is provided to extend the service life and to facilitate the separation of the desorption liquid.

The corrosive gas backflow prevention device 100 includes a desorption inflow chamber 11, a desorption liquid discharge chamber 12 for discharging the desorbing liquid introduced into a collecting tank or a desorption liquid storage tank, a desorption liquid inflow chamber 11, and a desorption liquid discharge chamber 12. The enclosure 10 is provided with a partition wall 13 is formed with a discharge hole (13a) for communicating; A discharge pipe line 20 discharging the desorption liquid introduced into the desorption liquid inlet chamber 11 to the desorption liquid discharge chamber 12; Is made of an elastic material, is provided in the desorption liquid discharge chamber 12, one end is fixed to the partition 13, the outer edge portion is in contact with the end of the discharge pipe passage 20, the discharge pipe passage 20 A corrosive gas backflow prevention plate 30 for preventing the corrosive gas from flowing back into the desorption fluid inlet chamber 11 by closing the discharge pipe 20 by an elastic restoring force by opening the discharge of the desorption liquid; It is made, including.

The enclosure 10 is a desorption inlet chamber 11 for receiving the desorption liquid discharged to the desorption liquid discharge line 3, and the desorption liquid is introduced from the desorption liquid inlet chamber 11, and the desorption liquid is introduced into the collection tank or the desorption liquid storage tank ( A desorption liquid discharge chamber 12 for discharging to 5) is provided, and the desorption liquid inflow chamber 11 and the desorption liquid discharge chamber 12 are divided into partitions 13. The catchment tank or the desorption tank 5 from the desorption liquid inlet 10a and the desorption liquid discharge chamber 12 through which the desorption liquid discharged to the desorption liquid discharge line 3 is introduced into the desorption liquid inlet chamber 11. It is provided with a stripping solution discharge port (10b) for discharging the stripping solution.

The partition 13 is provided with a discharge hole (13a) for communicating the desorbing liquid inlet chamber 11 and the desorbing liquid discharge chamber 12. The discharge pipe (20) is coupled to the discharge hole (13a).

The upper part of the desorption liquid inlet chamber 11 is sprayed with the water inlet pipe 15 through which the water is introduced, and the inlet dewatering liquid is sprayed into the water inlet pipe 15 to remove bubbles formed when the desorption liquid is introduced. It is preferable that the nozzle 14 is further provided (refer FIG. 7).

The discharge pipe 20 is coupled to the discharge hole 13a of the partition 13 to discharge the desorption liquid introduced into the desorption liquid inlet chamber 11 to the desorption liquid discharge chamber 12.

The corrosive gas backflow preventing plate 30 is installed at the discharge end of the exhaust pipe line 20, and the corrosive gas backflow preventing plate 30 opens and closes the exhaust pipe line 20.

The corrosive gas backflow prevention plate 30 is made of an elastic material and is provided in the desorption liquid discharge chamber 12. One end of the corrosive gas backflow prevention plate 30 is fixed to the partition 13, and an outer edge thereof is installed to contact an end of the discharge pipe 20. Accordingly, the corrosive gas backflow prevention plate 30 is the desorbent inflow chamber 11 as shown in FIGS. 3 and 4 when the centrifugal dehydrator is operated in contact with the end of the discharge line 20 as shown in FIGS. 1 and 2. ) By releasing by the weight of the desorbing liquid introduced into the) to open the discharge pipe 20 to discharge the desorbing liquid introduced into the desorbing liquid inflow chamber 11 into the desorbing liquid discharge chamber 12, and the desorbing liquid inflow chamber 11. When the centrifugal dehydrator stops after discharging the desorbing liquid, the discharge pipe 20 is closed by the elastic restoring force. When the centrifugal dehydrator stops after discharge of the desorption liquid, the discharge pipe 20 is closed by the elastic restoring force of the corrosive gas backflow prevention plate 30 as shown in FIGS. 1 and 2. The corrosive gas generated due to the decay of the organic material is prevented from flowing back to the desorption inlet chamber 11. When the corrosive gas is blocked from flowing back to the desorption fluid inlet chamber 11 by closing the discharge pipe 20 by the elastic restoring force of the corrosive gas backflow preventing plate 30, the inside of the centrifugal dehydrator 4 is eventually closed. It prevents the backflow of corrosive gas and prevents corrosion of parts in the centrifugal dehydrator, especially the bearing supporting the screw conveyor to rotate and the shaft and screw of the screw conveyor, thus extending the life of the centrifugal dehydrator and separating the desorption fluid. It can be done.

In order to fix one end of the corrosive gas backflow preventing plate 30 to the partition wall 13, a fixing part 16 fixed to the partition wall 13 is provided, and one end of the corrosive gas backflow preventing plate 30 is fixed to the partition wall 13. It is to be provided with a fixing plate 17 for fixing to the government (16). The fixing plate 17 is coupled to the fixing part 16 by screws or bolts to fix one end of the corrosion gas backflow preventing plate 30.

The corrosion gas backflow prevention plate 30 is preferably made of synthetic rubber, and preferably made of a material having corrosion resistance. Representative examples include teflon rubber, butyl rubber, chloroprene rubber, butadiene rubber and the like.

An end portion of the discharge pipe line 20 may have a vertical surface with the pipe line, but a gap may be generated in the edge portion in which the corrosive gas backflow prevention plate 30 contacts the discharge pipe line 20 by frequent release of the desorption liquid. When the outer edge portion of the corrosive gas backflow prevention plate 30 comes into contact with the exhaust pipe passage 20, the exhaust gas passage may be easily contacted by the own weight of the corrosive gas backflow prevention plate 30 to prevent the occurrence of a gap. 20 is preferably such that the inclined surface 21 inclined upward from the lower end of the discharge side end located in the stripping liquid discharge chamber 12 toward the stripping liquid inflow chamber 11. At this time, the outer edge portion of the corrosion gas backflow prevention plate 30 is in contact with the inclined surface (21).

In addition, when the corrosive gas backflow prevention plate 30 is deformed due to frequent opening and closing operation of the corrosive gas backflow preventing plate 30, it may be impossible to maintain the closed state of the discharge pipe 20. It is to provide a secondary plate 40 to prevent the deformation of the corrosion gas backflow prevention plate 30, the corrosion gas backflow prevention plate 30 to maintain the closed state of the discharge pipe 20 by its own weight Preferred (see FIGS. 5 and 6). The auxiliary plate 40 is coupled to the outside of the corrosive gas backflow prevention plate 30 to prevent deformation of the corrosive gas backflow prevention plate 30 and the discharge pipe of the corrosive gas backflow prevention plate 30 by its own weight. The furnace 20 serves to maintain the closed state.

In addition, although the adhesive may be used to couple the auxiliary plate 40 to the corrosive gas backflow prevention plate 30, the auxiliary plate 40 and the by the frequent opening and closing operation of the corrosive gas backflow prevention plate 30. Since the corrosive gas backflow prevention plate 30 may be spaced apart from each other, the auxiliary plate 40 and the corrosive gas backflow prevention plate 30 are preferably bolted to each other. To this end, the annular plate 50 for fastening the bolts for positioning the auxiliary plate 40 to the corrosive gas backflow prevention plate 30 is further provided on the inner side of the corrosive gas backflow prevention plate 30. Preferred (see FIGS. 5 and 6).

The auxiliary plate 40 and the bolt fastening annular plate 50 is preferably made of a synthetic resin material having corrosion resistance.

The technical spirit should not be interpreted as being limited to the above embodiments of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

1: screw feeder 2: screen
3: Degreasing solution discharge line 4: Centrifugal dehydrator
100: corrosive gas backflow prevention device 10: enclosure
11: Tleaving liquid inlet chamber 12: Teasing liquid outlet chamber
13: bulkhead 13a: discharge hole
14: bubble removal nozzle 20: discharge pipe
21: slope 30: corrosive gas backflow prevention plate
40: auxiliary plate 50: annular plate for bolting

Claims (6)

Pressing and dewatering the sludge by the rotation of the screw feeder (1) equipped with a helical screw and solid-phase separation into the desorption liquid discharged to the screen (2) provided on the outside of the screw feeder (1) and the dewatering cake from which the desorption liquid is discharged It is installed on the desorption liquid discharge line (3) for transferring the desorption liquid discharged from the centrifugal dehydrator (4) to the collection tank or desorption liquid storage tank,
A desorption inlet chamber 11 for receiving the desorption liquid discharged to the desorption liquid discharge line 3, and a desorption liquid discharge chamber in which desorption liquid is introduced from the desorption liquid inlet chamber 11 and discharges the desorption liquid into the collection tank or the desorption liquid storage tank ( 12) and a partition wall having a discharge hole 13a formed therein so as to be partitioned into the stripping liquid inflow chamber 11 and the stripping liquid discharge chamber 12 and communicating the stripping liquid inflow chamber 11 and the stripping liquid discharge chamber 12 ( 13 is provided with a housing 10;
A discharge pipe line 20 coupled to the discharge hole 13a of the partition 13 to discharge the desorption liquid introduced into the desorption liquid inlet chamber 11 to the desorption liquid discharge chamber 12;
It is made of an elastic material, is provided in the desorption liquid discharge chamber 12, one end is fixed to the partition 13, the outer edge portion is in contact with the end of the discharge pipe 20, the desorption liquid inflow chamber 11 It is retracted by the weight of the desorbent flowed into the opening to the discharge pipe 20 to discharge the desorption liquid into the desorption liquid discharge chamber 12, and after the desorption liquid discharged in the desorption liquid inlet chamber 11 by the elastic restoring force A corrosive gas backflow prevention plate 30 which closes 20 to block back the corrosive gas generated by the decay of organic matter contained in the desorption liquid from the water collecting tank or the desorption liquid storage tank to the desorption liquid inlet chamber 11;
Corrosion gas backflow prevention device of the centrifugal dehydrator, characterized in that comprises a. The method of claim 1,
The discharge pipe 20 is formed with an inclined surface 21 inclined upward from the lower end of the discharge side end located in the stripping liquid discharge chamber 12 toward the stripping liquid inflow chamber 11,
Corrosion gas backflow prevention device of the centrifugal dehydrator, characterized in that the outer edge portion of the corrosion gas backflow prevention plate 30 in contact with the inclined surface (21). The method according to claim 1 or 2,
It is coupled to the outside of the corrosive gas backflow prevention plate 30 to prevent deformation of the corrosive gas backflow prevention plate 30, the closed state of the discharge pipe line 20 of the corrosive gas backflow prevention plate 30 by its own weight Auxiliary plate 40 to maintain the; Corrosion gas backflow prevention device of the centrifugal dehydrator, characterized in that further provided. The method of claim 3, wherein
Located on the inside of the corrosive gas backflow prevention plate 30 and the annular plate for fastening bolt 50 for bolting the auxiliary plate 40 to the corrosive gas backflow prevention plate 30 is further provided. Corrosion gas backflow prevention device of centrifugal dehydrator. The method of claim 4, wherein
The upper part of the desorption liquid inlet chamber (11) is sprayed with water to the desorbent flows to remove the bubbles formed when the desorbent inlet is removed, characterized in that the apparatus further comprises a corrosion gas backflow prevention device of the centrifugal dehydrator. The method of claim 5, wherein
The corrosion gas backflow prevention plate 30 is a corrosion gas backflow prevention device of the centrifugal dehydrator, characterized in that the synthetic rubber material.

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